DE896727C - Capillary for flow measurement - Google Patents

Description

There are known flow meters, which are formed from hair tubes, the flow rate being measured by measuring the amount present at the ends of the capillary Pressure difference is measured in a known manner. The main components of this measuring device consist on the one hand that the capillary is very easily clogged or partially dirty and then gives wrong measurements, and on the other hand in the very high Pressure consumption that only allows the measurement of small quantities.

One has already to the flow rate with the same pressure consumption to decrease, applied capillary bundles. But that made it easy to get dirty of the capillaries is not prevented. Since these capillaries are practically impossible to clean are, then their usability is severely impaired.

The present invention relates to a particular embodiment of the Measuring capillary, which allows both large amounts of flow as well as a flawless one at all times Cleaning of the capillary permitted.

According to the invention, the capillary consists of a capillary flow channel of ring-shaped, gem-cross-section, the inner and outer walls of which are mounted separable from one another are. The capillary consists of a cylindrical measuring tube in which a piston of of such a diameter that there is a capillary flow channel between the two arises. The piston has several small wart-shaped projections at both ends, by means of which it is releasably centered in the measuring tube. The capillary thus formed The flow channel has all the properties of the previously used narrow capillaries, However, due to its large cross-section, which can be achieved by choosing the diameter of the The tube and the piston can be chosen as large as desired without prejudice to the effect, a very large flow rate with low pressure consumption. This also becomes a An extraordinarily large measuring range is achieved because the device also works with very small flow rates works flawlessly. This capillary composed of two separating pairs can be dismantled by simply removing the piston from the measuring tube, that a flawless cleaning of the walls forming the capillary is possible.

The technical advantages of this arrangement are obvious. There one can choose the diameter of the annular capillary as large as desired, consists the possibility of taking advantage of the great advantages that Kapillareumessung offers, such as B. independence from specific weight and compression, also for operational measurements zuwertj without having to fear failure of the measuring device, since they can be dismantled and cleaned in a few simple steps. You can z. B. by regular replacement z. B. two measuring cartridges always flawless measurement achieve.

The piston insert can optionally also have different diameters have and be interchangeable, so that different flow rates can be achieved. This effect can also be achieved by the small conicity of the measuring tube and the piston Slight displacement of the piston in the measuring tube can be achieved by increasing the width the ring-shaped capillary is changed. The measuring device can be in glass as well as in metal.

In the drawing is the object. of the invention in two examples shown.

In Fig. I, a is a cylindrical one. Pipe on which the D) ifEerenlzd! Rudçmeslser b is connected.

Between the connection points of the pressure knife there is a in the tube a Piston stored, the outer diameter of which only by a small value, z. B. 0.2 to 0.3: mm, from the inner diameter of the pipe. a differs so that between a capillary channel with an annular cross-section is created on the two walls. Of the Piston c carries some, e.g. B. four wart-shaped protrusions d, by means of which he is centered in the tube a. The piston can therefore be removed for cleaning removed from the tube a and reintroduced at any time in a precisely centered position will.

The fig. 2 shows a cross section through the piston c and Ida's tube a, the projections d being clearly visible.

In Fig. 3, e is a conical tube that is cylindrical at the ends runs. In this tube there is a piston of the same conicity, its tapered ends g and g1 into the cylindrical ones by means of wart-shaped extensions h ' Ends of the tube e are centered.

The approach ei is through an extension i through a stuffing box outwards so that the piston can be moved from the outside.

By moving the piston f, the piston and the tube e formed capillary channel of annular cross-section widened or narrowed, whereby the flow rate can be changed with the same pressure difference.

By simply pulling out the conical inner part, the capillary Canal be dismantled for cleaning.

Claims (1)

PATENT CLAIM: Capillary for flow measurement, characterized in that that in a measuring tube to form a capillary annular space an insert piston of smaller diameter with centering projections resting on the inner wall of the measuring tube is removably arranged. Cited references: U.S. Patent No. I487989; German Patent Specification No. 6I560I, 226sie, 480236.